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  • Title: Crystal and molecular structures of carbon-bridged pyrimidine cyclonucleosides. Substrate analogs of ribonuclease A.
    Author: Yamagata Y, Tomita K, Usui H, Sano T, Ueda T.
    Journal: Chem Pharm Bull (Tokyo); 1989 Aug; 37(8):1971-6. PubMed ID: 2598305.
    Abstract:
    The crystal and molecular structures of carbon-bridged 6,5'-cyclo-5'-deoxy-4-thiouridine (6,5'-Cs4U), 6,5'-cyclo-5'-deoxy-2',3'-O-isopropylideneuridine (6,5'-CiU) and 6,6'-cyclo-5',6'-dideoxy-allofuranosyluracil (6,6'-CU) have been determined by X-ray diffraction. The molecular conformations of 6,5'-Cs4U and 6,5'-CiU are very similar; the conformation about the glycosidic bond is anti (low region), the torsion angle O(4')-C(1')-N(1)-C(2) being -150.0 degrees for 6,5'-Cs4U and -145.5 degrees for 6,5'-CiU, and the sugar puckering being both O(4')-exo. On the other hand, 6,6'-CU takes the glycosidic torsion angle of -116.9(4) degrees (middle anti region) and the sugar conformation of C(4')-endo. The cyclization causes little alteration in the geometry of the base moiety. 6,5'-Cs4U and 6,5'-CiU exhibit the similar base-base interactions between adjacent molecules, although their molecular packings are quite different; the 4-thiouracil or uracil moiety interacts with adjacent base moieties through hydrogen bonding and stacking interactions. In 6,6'-CU, cyclonucleosides were connected by hydrogen bondings between the hydroxyl and sugar ring oxygen atoms and between the hydroxyl groups and the base nitrogen and oxygen atoms. As the 2',3'-cyclic phosphates of these carbon-bridged cyclonucleosides are hydrolyzed by ribonuclease A, it is suggested that the conformers found in these cyclonucleosides are recognized by the enzyme.
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